A small group of neurons modulates the amount of insulin that the pancreas must produce

8:56 June 7, 2017

The brain is key in the regulation of appetite, body weight and metabolism. Specifically, there is a small group of hypothalamus neurons, called POMC that detect and integrate signals that inform on the energy state of the organism and activate the appropriate physiological responses. These neurons are sensitive to fluctuations in nutrients such as glucose, fatty acids or amino acids.

Now, a research project co-chaired by Marc Claret, of the August Pi i Sunyer Biomedical Research Institute – IDIBAPS, and Antonio Zorzano, of the Institute for Research in Biomedicine (IRB Barcelona), both members of the CIBERDEM network, reveals the connection between POMC neurons at the hypothalamus and the release of insulin by the pancreas and describes new molecular mechanisms involved in this connection. The researchers publish the study in Cell Metabolism and the first authors are Sara Ramírez and Alicia G. Gómez-Valadés, researchers at IDIBAPS.

The connection between hypothalamus and pancreas

It is known that POMC neurons detect changes in nutrient availability, but the molecular mechanisms involved are not known in detail. It is also known that changes in the shape of mitochondria, a phenomenon known as mitochondrial dynamics, is a mechanism of energy adaptation in changing metabolic conditions, to adjust the needs of cells.

To determine if defects in the mitochondrial dynamics of this small nucleus of neurons could cause alterations in metabolism, researchers removed a mitochondrial dynamics protein, Mitofusin 1, from the POMC neurons in mice.

First, scientists note that these mice have altered detection of glucose levels and adaptation between the fasting state and after being fed. And secondly, they see that these defects lead to disturbances in the metabolism of glucose that are caused by a lower secretion of insulin. “It was surprising to discover that these neurons are not only involved in the control of the intake, which was already known, but are also involved in controlling the amount of insulin secreted by the beta cells of the pancreas,” explains Zorzano, Head of the Laboratory of Complex Metabolic Diseases and Mitochondria at IRB Barcelona.

Scientists note for the first time that this communication between the hypothalamus and the pancreas depends on the activity of the protein Mitofusin 1 and start to understand some molecular details of this connection. They describe that the alterations are due to a disproportionate, though transitory, increase in the production of radical oxygen species (ROS) in the hypothalamus. When at the laboratory the levels of ROS in the hypothalamus are restored, the pancreas returns to secrete the correct levels of insulin.

Obesity and diabetes

Marc Claret, head of the Neuronal Metabolism Control Group at IDIBAPS, adds that “our results also suggest pathological implications of this animal model, since a diet rich in fats makes these mice more susceptible to developing diabetes.”

Insulin segregation is a major phenomenon in relation to diabetes. Type 2 diabetes patients, who represent the 85% of people with diabetes, have fewer beta cells and less ability to secrete insulin in response to glucose. “Understanding the mechanisms involved in regulating insulin is important and therefore helps us to better understand the pathophysiology of diabetes,” says Claret, who emphasizes that “much research needs to be done to apply these findings, given that we are talking about neural mechanisms of complex intervention.”

This work has been funded by the Spanish Ministry of Economy, Industry and Competitiveness and the European FEDER funds. The study was carried out with researchers from the Yale School of Medicine (US), the Faculty of Medicine of the University of Geneva (Switzerland), the University of Barcelona, the ​​Paul Sabatier University of Toulouse (France), the University Hospital Virgen del Rocío in Seville, the University of Santiago de Compostela, the Bellvitge Biomedical Research Institute (IDIBELL), the University of Veterinary Medicine (Hungary) and the Hospital Clínic of Barcelona.

Created in 2005 by the Generalitat de Catalunya (Government of Catalonia) and University of Barcelona, IRB Barcelona is a Severo Ochoa Centre of Excellence, a seal that was awarded in 2011. The institute is devoted to conducting research of excellence in biomedicine and to transferring results to clinical practice, thus improving people’s quality of life, while simultaneously promoting the training of outstanding researchers, technology transfer, and public communication of science. Its 25 laboratories and seven core facilities address basic questions in biology and are orientated to diseases such as cancer, metastasis, Alzheimer’s, diabetes, and rare conditions. IRB Barcelona is an international centre that hosts 400 employees and 32 nationalities. It is located in the Barcelona Science Park. IRB Barcelona forms part of the Barcelona Institute of Science and Technology (BIST) and the “Xarxa de Centres de Recerca de Catalunya” (CERCA).

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